This course will transition you from working on a single computer to an entire fleet. Systems administration is the field of IT that’s responsible for maintaining reliable computers systems in a multi-user environment. In this course, you’ll learn about the infrastructure services that keep all organizations, big and small, up and running. We’ll deep dive on cloud so that you’ll understand everything from typical cloud infrastructure setups to how to manage cloud resources. You'll also learn how to manage and configure servers and how to use industry tools to manage computers, user information, and user productivity. Finally, you’ll learn how to recover your organization’s IT infrastructure in the event of a disaster.
By the end of this course you’ll be able to:
● utilize best practices for choosing hardware, vendors, and services for your organization.
● understand how the most common infrastructure services that keep an organization
running work, and how to manage infrastructure servers.
● understand how to make the most of the cloud for your organization.
● manage an organization’s computers and users using the directory services, Active
Directory, and OpenLDAP.
● choose and manage the tools that your organization will use.
● backup your organization’s data and know how to recover your IT infrastructure in the case of
a disaster.
● utilize systems administration knowledge to plan and improve processes for IT environments.

EM

THIS was the course I was waiting for! I feel like this gets into the true heart of what it means to be an IT specialist. I loved learning about Virtualization, Backups, Active Directories, etc.

JY

Jun 03, 2018

Filled StarFilled StarFilled StarFilled StarFilled Star

Lots of great information! The last assignment was pretty challenging. Make sure to include what specific action, service, or product you would recommend and why it would help solve the problem.

수업에서

Data Recovery & Backups

In the fifth week of this course, we'll learn about data recovery and backups. In any tech role, it's important to know how to backup and recover data -- it's even more important for system administration. We will also learn about common corporate practices like designing a disaster recovery plan and writing post-mortem documentation. By the end of this module, you'll know the tradeoffs between on-site and off-site backups, understand the value and importance of backup and recovery testing, know different options for data backup (as well as the risks) and understand the purpose and contents of a disaster recovery plan.

강사:

Google

스크립트

So we've talked about how important backups are, and why you should be backing up any important data. And some tools that can be used to help you back up data. But how exactly do you decide when, and how to back up data? Well let's explore those options. There's a couple of ways to perform regular backups on data that's constantly changing. You can do a full backup on a regular basis, which involves making a copy of the data to be fully backed up. The full unmodified contents of all files to be backed up is included in this backup mechanism whether the data was modified or not. In the case of data that doesn't change very often, like operating system configuration files, this approach can be inefficient. You're backing up multiple copies of data that isn't changing, which waste space and uses bandwidth unnecessarily. That doesn't seem like the best idea does it? A more efficient approach is to only backup files that are changed, or been created since the last full backup, this is called a differential backup. The advantage is that you aren't storing backups of duplicated, unchanging data, only the files that changed are backed up. Saving us some storage space and time to form the backup. But you wouldn't want to completely stop taking full backups. Over time you wind up tracking and storing lots of copies of files that change a lot, which will also take up more and more disk space over time. To avoid this it's a good practice to perform infrequent full backups, while also doing more frequent differential backups. How often you perform a full backup will depend on how far back you want changes to be tracked. Let's say we perform full backups once every week, and differential backups daily. In the worst case scenario we'll lose close to 24 hours of data changes, that's not bad. Another efficient way to backup changing data is to perform regular incremental backups. While a differential backup backs files that have been changed or created, and incremental backup is when only the data that's changed in files is backed up. This is even more efficient in terms of both disk space, and time required compared to differential backups. Again you'll want to use frequent incremental backups along with less frequent full backups. But because this approach only sorts differences in the files that have changed since the last incremental backup, it's possible that all incremental backups are needed to fully reconstruct the files. If one of these incremental backups is missing or corrupt it might not be possible to recover data any more recently than the last full back up. Another drawback is that recovery might be more time consuming. This is because the most recent version of backed up data has to be recreated by integrating the last full backup with each incremental backup that follows. For super large files that are changing frequently this could require a lot of time to process. One more thing backup systems can do to help save space is bar compression. When creating a backup all the files and folder structures will be copied and put into an archive. Archives are useful for keeping files organized and preserving full structure. Besides archiving the files, backups can also be compressed, this is a mechanism of storing the same data while requiring less disk space by using complex algorithms. Those are way to complicated to go into detail here, but it's important to call out that not all data types lend themselves to being compressed. This means that space savings from compression will depend on what you're backing up. Another thing you should know about compressing backups is the expense of restoration. To recover data from a backup it needs to be decompressed first. Depending on the size of your backups this could take a lot of time, and disk space to expand. We touched on backup storage location a bit in the last lesson, but let's dive into a little more detail. Good news, there's a pretty cheap and easy to maintain option out there for storing backup data on site. You can use a commercial NAS device, or configure a filer server with a large amount of disk space. Wherever you chose to store your backup data you'll need a lot of space. You could go out and buy a giant 10 terabyte hard disk, which could work for a little while. But what do you do once your back up data grows to fill that one disk? Are they even making disks larger than 10 terabytes yet? Another thing to worry about is what do you do if that one disk holding all your backed up data fails. Yikes, that wouldn't be good. These are issues a RAID array can address. RAID stands for Redundant Array of Independent Disks, it's a method of taking multiple physical disks and combining them into one large virtual disk. There are lots of types of RAID configuration called levels. Depending on the characteristics desired from the RAID, various RAID levels prioritize features like performance, capacity, or reliability. RAID arrays are a great, inexpensive way of creating a lot of data capacity, while minimizing risk of data loss in the event of disk failure. They can even be flexible enough to allow future growth in disk capacity. We won't go into the nitty gritty details of the different RAID levels available, but if you want to learn more check out the supplemental readings at the end of this lesson. I want to stress the fact that RAID isn't a back up solution, it's a data storage solution that has some hardware failure redundancy available in some of the RAID levels. But storing data on a RAID array doesn't protect against accidentally deleting files, or malware corrupting your data. This is so important that I'm going to say it one more time. RAID is not a replacement for backups.